hpc

Dell EMC technology for Digital Manufacturing harnesses the workstation, HPC and storage capabilities that combine to enable better products, more efficient design and production processes, and meet rapidly changing customer preferences.
Collecting, collating and digesting more and more data in the entire ecosystem, from product modelling to after-sales trends, are making the digital factory a powerful and necessary reality in the manufacturing landscape.

Dell EMC technology for Digital Manufacturing harnesses the workstation, HPC and storage capabilities that combine to enable better products, more efficient design and production processes, and meet rapidly changing customer preferences.
Collecting, collating and digesting more and more data in the entire ecosystem, from product modelling to after-sales trends, are making the digital factory a powerful and necessary reality in the manufacturing landscape.
Learn more about Dell Precision® workstations featuring Intel® Xeon® processors

Dell EMC technology for Digital Manufacturing harnesses the workstation, HPC and storage capabilities that combine to enable better products, more efficient design and production processes, and meet rapidly changing customer preferences.
Collecting, collating and digesting more and more data in the entire ecosystem, from product modelling to after-sales trends, are making the digital factory a powerful and necessary reality in the manufacturing landscape.
Learn more about Dell Precision® workstations featuring Intel® Xeon® processors

Many companies, especially those in the Oil and Gas Industry, need high-density deployments of high performance compute (HPC) environments to manage and analyze the extreme levels of computing involved with seismic processing. CyrusOne’s Houston West campus has the largest known concentration of HPC and high-density data center space in the colocation market today. The data center buildings at this campus are collectively known as the largest data center campus for seismic exploration computing in the oil and gas industry. By continuing to apply its Massively Modular design and build approach and high-density compute expertise, CyrusOne serves the growing number of oil and gas customers, as well as other customers, who are demanding best-in-class, mission-critical, HPC infrastructure. The company’s proven flexibility and scale of its HPC offering enables customers to deploy the ultra-high density compute infrastructure they need to be competitive in their respective business sectors.

The Cray® CS300-LC™ liquid-cooled cluster supercomputer combines system performance and power savings, allowing users to reduce capital expense and operating costs.
The Trend Toward Liquid Cooling
Recent IDC surveys of the worldwide high performance computing (HPC) market consistently show that cooling today's larger, denser HPC systems has become a top challenge for datacenter managers. The surveys reveal a notable trend toward liquid cooling systems, and warm water cooling has emerged as an effective alternative to chilled liquid cooling.

Modern AI, HPC and analytics workloads are driving an ever-growing set of data intensive challenges that can only be met with accelerated infrastructure.
Designed for the AI era and architected for the modern analytics and AI workloads, Power Systems AC922 delivers unprecedented speed for the AI Era like up to 5.6 times as much bandwidth, which results from
The only architecture enabling NVLink between CPUs and GPUs
a variety of next-generation I/O architectures: PCIe gen4, CAPI 2.0, OpenCAPI and NVLINK.
Proven simplified deep-learning deployment and AI performance

In terms of health care IT, what does the next five years look like? The IT team at Harvard Medical School — Partners HealthCare Center for Genetics and Genomics (HPCGG) has focused its efforts on building a viable IT foundation with the right hardware and innovative software. The team also hopes to ensure that IT is not a constraining factor in realizing the benefits of next-generation sequencing technologies. Read this white paper to learn how HPCGG is implementing a cost-effective storage system that can integrate with its existing cluster environment for exponentially faster data access.

Clients setting up smaller offices want to invest in the same type of technology as their larger competitors. Larger clients setting up remote branches need compute power not only at their head office, but also at distributed locations where key decisions that impact the local operation are made.This white paper compares the IBM BladeCenter S offering to the HP c3000 offering and articulates why IBM BladeCenter S is the best choice for small blade chassis platforms.

This new edition has a wider scope than the previous one, with 17 participants while retaining a similar maturity model as the previous one in order to help participants measure their progress year -on-year.

Data movement and management is a major pain point for organizations operating HPC environments. Whether you are deploying a single cluster, or managing a diverse research facility, you should be taking a data centric approach. As data volumes grow and the cost of compute drops, managing data consumes more of the HPC budget and computational time. The need for Data Centric HPC architectures grows dramatically as research teams pool their resources to purchase more resources and improve overall utilization. Learn more in this white paper about the key considerations when expanding from traditional compute-centric to data-centric HPC.

IBM Platform LSF family provides a complete set of workload management capabilities for demanding, distributed HPC environments. In this video, we will learn how a genomics workflow can be managed in a multi-architecture, hybrid-cloud environment with the IBM Platform LSF family. Featuring IBM Platform Application Center and IBM Process Manager, learn how these add-on products can help to drive productivity through easy-to-use interfaces for managing complex computational workflow.

Is your software defined infrastructure (SDI) for high performance computing (HPC) and big data analytics meeting the needs of your growing business? Would you like to know how to justify the switching cost from unsupported open source software to a commercial grade SDI that ensures your resources are more effectively used cutting down time to market? This webcast will give you an overview of the true costs of building out and managing a HPC or Big Data environment and how commercial grade SDI software from IBM can provide a significant return on investment.

This paper is the first to explore a recent breakthrough with the introduction of the High Performance Computing (HPC) industry’s first Intelligence Community Directive (ICD) 503 (DCID 6/3 PL4) certified compliant and secure scale-out parallel file system solution.

Around the world and across all industries, high-performance computing is being used to solve today’s most important and demanding problems. More than ever, storage solutions that deliver high sustained throughput are vital for powering HPC and Big Data workloads.

Recent IDC surveys of the worldwide high performance computing (HPC) market consistently show that cooling today's larger, denser HPC systems has become a top challenge for datacenter managers. The surveys reveal a notable trend toward liquid cooling systems, and warm water cooling has emerged as an effective alternative to chilled liquid cooling.

IBM Platform HPC Total Cost of Ownership (TCO) tool offers a 3-year total cost of ownership view of your distributed computing environment and savings that you could potentially experience by using IBM Platform HPC in place of competing cluster management software.

View this demo to learn how IBM Platform Computing Cloud Service running on the SoftLayer Cloud helps you: quickly get your applications deployed on ready-to-run clusters in the cloud; manage workloads seamlessly between on-premise and cloud-based resources; get help from the experts with 24x7 Support.

This major Hollywood studio wanted to improve the computer time required to render animated films. Using HPC solution powered by Platform LSF increased compute capacity allowing release of two major feature films and multiple animated shorts.

University of East Anglia wished to create a “green” HPC resource, increase compute power and support research across multiple operating systems. Platform HPC increased compute power from 9 to 21.5 teraflops, cut power consumption rates and costs and provided flexible, responsive support.